Genetic Diversity Of Aloe Species In Kenya And The Efficacy Of Aloe Secundiflora, Aloe Lateritia And Aloe Turkanesis On Fusarium Oxysporum And Pythium Ultimum
Micheni, C M
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Aloe species are common in Kenya and have many health benefits which include promotion of wound healing, antifungal activity, hypoglycemic or anti-diabetic effects, antiinflammatory and anticancer properties. However, little has been done to study the genetic variability of Aloe species in Kenya. Fusarium oxysporum and Pythium ultimum are economically important plant pathogens with a wide host range causing several diseases including root rots and damping off. The objectives of this study were to genetically characterize Aloe species found in Kenya and assess the efficacy of their extracts on Fusarium oxysporum and Pythium ultimum. Thirty one morphologically diverse Aloe species were sampled from ex-situ and in-situ collections. Morphological characterization was done using leaf color, presence or absence of variegation and color of spines. DNA extraction was carried out using cetyl trimethyl ammonium bromide (CTAB) method. Sequence related amplified polymorphism (SRAP) markers were used to determine genetic diversity of the Aloe species Forty eight primer pairs were screened to select those that had the highest number of polymorphisms. Eight primer pairs, which were polymorphic, were selected to genotype the Aloe species. Crude extracts of the leafs were made by extracting with dichloromethane: methanol in the ratio of 1:1 and made into concentrations of 100mg/100|il, 50mg/100pl, 25mg/100pl, 12.5mg/100|il and 6.25mg/l OOpI using sterile distilled water. Similar concentrations were done with the antifungal drug triazole as the positive control. Assessment of the efficacy of different concentrations of the Aloe species leaf extracts against Fusarium oxysporum and Pythium ultimum was carried out using the agar disc diffusion method. Paper discs impregnated with different concentrations of the Aloe extracts were placed in the petri plates and zones of inhibition measured in millimeters for 11 days. SRAP primers produced 893 genetic loci with percentage polymorphic loci of 56.8%. Nei genetic distance for the populations ranged from 0.094 to 0.362 with 9% and 91% variation among xiii populations and within individuals, respectively. Organic crude extracts of A. Sccundijlora showed the highest activity (Mean inhibition = 16.01 mm) against the test fungi compared to A. later ilia (Mean inhibition = 13.09 mm) and A. turkanensis (Mean inhibition = 11.04 mm). The crude extracts showed higher activity against F. oxysporum than P. ultimum; but there was no activity for all the crude extracts at 6.25mg/ml. None of the crude extracts showed higher activity than the commercially used fungicide triazole. The findings of this study could form basis for better conservation of the genus which has potential to control fungi of agricultural importance alongside other control measures. Keywords: Aloe species, Sequence Related Amplified Polymorphism (SRAP), Fusarium oxysporum, Pythium ultimum.
University of Nairobi